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W2327608670 abstract "Collective properties of many rodlike circle swimmers are explored by computer simulations in two spatial dimensions. In the model considered, the center of mass of a single swimmer moves on a circle with radius $R$. Therefore, the model provides an interpolation between an interacting self-propelled-rod model for linear swimmers ($Rensuremath{rightarrow}ensuremath{infty}$) and that of interacting passive rotors ($R=0$). We map out the state diagram for various swimmer densities and radii $R$. For increasing density, the dilute state is followed by vortices consisting of single particles (singlet-vortex state), where neighboring particles are perpendicularly oriented, and vortices of swimmer pairs (doublet-vortex state). The vortices exhibit strong structural ordering on an array. At higher densities, a slowed rotor fluid with a significant degree of mutual rotation hindrance occurs. The single-particle vortex structure becomes unstable above a threshold in the circling radius $R$, while pair vortices are stable only for intermediate radii $R$. A simple theory is proposed to predict the topology of the state diagram. Our results are verifiable for bacterial and artificial rodlike circle swimmers." @default.
W2327608670 created "2016-06-24" @default.
W2327608670 creator A5017378575 @default.
W2327608670 creator A5028221319 @default.
W2327608670 date "2013-03-15" @default.
W2327608670 modified "2023-09-25" @default.
W2327608670 title "Vortex arrays as emergent collective phenomena for circle swimmers" @default.
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W2327608670 doi "https://doi.org/10.1103/physreve.87.032712" @default.
W2327608670 hasPublicationYear "2013" @default.
W2327608670 type Work @default.